水在蛋白质折叠和分子识别中的调解作用。

Yaakov Levy, José N Onuchic
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引用次数: 822

摘要

水在许多方面对生命都是必不可少的,没有水,生物分子可能不再是真正的生物分子。特别是,水对生物大分子的结构、稳定性、动力学和功能至关重要。在蛋白质折叠过程中,水介导了链的崩溃,并通过漏斗状的能量景观寻找原生拓扑结构。水通过介导结合伙伴之间的相互作用积极参与分子识别,并有助于焓或熵稳定。因此,水必须包含在识别和结构预测代码中以捕获特异性。因此,水不应被视为一种惰性环境,而应被视为生物分子系统的一个完整和活跃的组成部分,它具有动态和结构作用。对水的关注揭示了生物机械和自组装的物理和功能,并可能促进我们对蛋白质和核酸自然设计的理解。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Water mediation in protein folding and molecular recognition.

Water is essential for life in many ways, and without it biomolecules might no longer truly be biomolecules. In particular, water is important to the structure, stability, dynamics, and function of biological macromolecules. In protein folding, water mediates the collapse of the chain and the search for the native topology through a funneled energy landscape. Water actively participates in molecular recognition by mediating the interactions between binding partners and contributes to either enthalpic or entropic stabilization. Accordingly, water must be included in recognition and structure prediction codes to capture specificity. Thus water should not be treated as an inert environment, but rather as an integral and active component of biomolecular systems, where it has both dynamic and structural roles. Focusing on water sheds light on the physics and function of biological machinery and self-assembly and may advance our understanding of the natural design of proteins and nucleic acids.

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